Cadence Adds Major Enhancements to Its Market Leading Signal Processing Worksystem.Business Editors/High-Tech Writers D.A.T.E. PARIS--(BUSINESS WIRE)--March 5, 2002 SPW SPW Signal Processing Workstation SPW Shelter in Place Warning SPW Spencer, IA, USA - Spencer Municipal Airport (Airport Code) SPW Special Purpose Weapon SPW Spokane Washington (border patrol sector) 4.8 Strengthens Vision for Design and Development of Algorithmic-Intensive DSP (1) (Digital Signal Processor) A special-purpose CPU used for digital signal processing applications (see definition #2 below). It provides ultra-fast instruction sequences, such as shift and add, and multiply and add, which are commonly used in math-intensive and Communications Systems Cadence Design Systems (company) Cadence Design Systems - A company that sells electronic design automation software and services. http://cadence.com/. See also Verilog. , Inc. (NYSE NYSE See: New York Stock Exchange : CDN (Content Delivery Network) A system of distributed content on a large intranet or the public Internet in which copies of content are replicated and cached throughout the network. ), the world's leading supplier of electronic design products and services, today announced a substantial upgrade to its Signal Processing Worksystem (SPW). SPW is the industry's first system-level, hierarchical block diagram design solution with an optimized flow for implementation. It helps manage the complexity of today's communications and multimedia designs by giving hardware, software, and RF engineers a means to collaborate on their projects, which can significantly reduce design time and risk. SPW 4.8 incorporates a broad spectrum of new capabilities and enhancements to both the core system and its links with other tools. These include tight integrations with the Xilinx Coregen solution, with the analog design flow that supports the Cadence(R) AMS AMS - Andrew Message System Designer, and with SystemC 2.0. SPW 4.8 users can enter and simulate designs consisting of various types of models including C, C++, Verilog, VHDL (VHSIC Hardware Description Language) A hardware description language (HDL) used to design electronic systems at the component, board and system level. VHDL allows models to be developed at a very high level of abstraction. , Verilog-AMS, SystemC, ISS ISS See Institutional Shareholder Services (ISS). , and Matlab. SPW 4.8 also supports server farms on HP-UX HP's version of Unix that runs on its 9000 family. It is based on SVID and incorporates features from BSD Unix along with several HP innovations. (operating system) HP-UX - The version of Unix running on Hewlett-Packard workstations. , Solaris, and Linux platforms to accelerate bit error rate (BER (1) (Basic Encoding Rules) A set of encoding rules for ASN.1 notation, which is a method for defining data structures. See ASN.1. (2) (Bit Error Rate) The average number of bits transmitted in error. See BERT. 1. ) simulations studies. "SPW is a versatile tool for our wireless designs. To ensure on-time silicon delivery, which is critical to us, we leverage several SPW features including reference testbenches for wireless standards and fixed-point simulation for algorithm-to-ASIC test vector generation," said Murali Krishnan, Senior Member of the Technical Staff, Systems Architecture, Morphics Technology. "The system and its associated libraries for 3G and other wireless standards have proven to be an ideal platform for launching our algorithmic exploration. The pre-verified modules in HDS (Hitachi Data Systems, Santa Clara, CA, www.hds.com) A leading provider of high-end storage hardware, software and services. Part of the Information Systems & Telecommunications Division of Hitachi Ltd. enable rapid capture of fixed-point versions of algorithms and test vector generation for complex designs. The Linux support in SPW4.8 operates seamlessly and makes it possible to utilize the compute power available on gigahertz PCs." "SPW has long been the benchmark in the system-level design space for good reason," said Rahul Razdan, corporate vice president and general manager of Systems and Functional Verification at Cadence. "We continue to optimize this product to address the needs of today's design engineers who are working with complex SoC and multi-ASIC/FPGA designs, especially in the advanced digital communications and multimedia markets. The structure of SPW -- from the core system, to its links with other tools, to its best-in-class libraries -- is intended to reduce cost and speed time to market." The integration of SPW with Xilinx Coregen blocks creates a powerful front-end solution that offers both a complete flow from system-level to hardware design and the ability to take advantage of Xilinx's optimized cores within the SPW environment. With SPW 4.8, users can utilize Xilinx Coregen blocks and directly validate them against the algorithmic description before they take the entire design to Xilinx place and route. The tight integration SPW 4.8 has with SystemC 2.0 -- through Block Wizard -- accelerates reuse of models written in an industry-standard modeling language, as well as models customers have written in SPW and its rich set of libraries. As customers add custom blocks using SystemC, the tight integration of the debug To correct a problem in hardware or software. Debugging software means locating the errors in the source code (the program logic). Debugging hardware means finding errors in the circuit design (logical circuits) or in the physical interconnections of the circuits. environment makes it much easier to locate design problems, thus reducing time to market. A new solution also available with SPW 4.8 is a tight integration with the analog design flow that supports Cadence AMS designer. This allows RF engineers to validate transceiver circuits together with the digital design before building a prototype, which leads to more stable designs that are easier and less costly to manufacture. Simulation studies are accelerated through the SPW 4.8's LSF LSF Lisofylline, see there support of server farms that run on HP-UX, Solaris, and Linux platforms. This meets the needs of complex systems that require substantial parameter studies to ensure that performance requirements can be met under all conditions. SPW 4.8 also accelerates BER simulation studies -- which typically consume days -- by splitting up the run and combining the results, thus cutting validation time almost linearly with the computer resources that are added. "We used the SPW environment for the elaboration and test of prototypes with the goal of demonstrating the functionality of DECT (Digital Enhanced Cordless Telecommunications) A cordless phone standard mostly used in Europe; however, DECT 6.0 is increasingly used worldwide. The first DECT standards were introduced by ETSI in 1992, and DECT phones have been used as cordless home phones as or Bluetooth radio architectures," said Emmanuel Brunel, RF System Engineer, Bluetooth Core Competency, Philips Consumer Electronics Philips Consumer Electronics is a part of Koninklijke Philips Electronics N.V. (usually known as Philips); and is one of the largest electronics companies in the world. In 2005, its sales were € 30.4 billion (US$38. in Le Mans, France. "We started by developing and validating a radio architecture using floating-point models in a system-level simulation. The modules of interest for the demonstration, which were part of the radio back-end, were translated in VHDL using the NC-Sim environment. Then, the SPW-HDS link with the seamless connection to NC-Sim allowed us to perform the verification of each sub-system translated in VHDL. The validated VHDL models were synthesized and programmed in a FPGA (Field Programmable Gate Array) A type of gate array that is programmed in the field rather than in a semiconductor fab. Containing up to hundreds of thousands of gates, there are a variety of FPGA architectures on the market. for a complete hardware-level evaluation and are now usable for any communication circuit design. The process of co-simulation -- performed in a single environment -- led to a significant reduction in design time." Several other new productivity capabilities have also been added to SPW 4.8, such as hierarchical access to parameters. The link to data path synthesis has been significantly improved in the area of general arithmetic blocks and additional blocks being mapped to AmbitWare/DesignWare components for a more automated, optimized path to hardware implementation. When looking at simulation speed, block profiling capabilities are particularly useful because they indicate where most run time is spent in a design. Because SPW now collaborates with other tools and environments it also includes Stream Management which reduces the risk of incompatibility between various tools by managing all environment and path settings. Price and Availability Available immediately, the SPW 4.8 signal processing worksystem is priced at $22,000 for a one-year license. SPW 4.8 supports the Forte 6 Update1 compiler running on Sun Solaris 2.7 and 2.8, and requires a C++ A.03.31 compiler on HP-UX 11 platforms. In addition, simulations are supported on low-cost Linux Redhat 7.0 platforms and require a GCC GCC: see Gulf Cooperation Council. (compiler, programming) GCC - The GNU Compiler Collection, which currently contains front ends for C, C++, Objective-C, Fortran, Java, and Ada, as well as libraries for these languages (libstdc++, libgcj, etc). g++2.96 compiler. About Cadence Cadence is the largest supplier of electronic design automation products, methodology services, and design services used to accelerate and manage the design of semiconductors, computer systems, networking and telecommunications equipment, consumer electronics, and a variety of other electronics-based products. With approximately 5,700 employees and 2001 revenues of approximately $1.43 billion, Cadence has sales offices, design centers, and research facilities around the world. The Company is headquartered in San Jose, Calif. and traded on the New York Stock Exchange New York Stock Exchange (NYSE) World's largest marketplace for securities. The exchange began as an informal meeting of 24 men in 1792 on what is now Wall Street in New York City. under the symbol CDN. More information about the company, its products and services is available at http://www.cadence.com. Cadence and the Cadence logo are registered trademarks of Cadence Design Systems, Inc. All other trademarks are the property of their respective owners. |
|
Printer friendly
Cite/link
Email
Feedback
Reader Opinion